Subject: MC

Envivo Bio, Inc.; Confidential

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1.1 Overview of microbial community composition

Figure 1 is an interactive figure showing the microbial community composition in each collected sample. Here, each color and shade corresponds to a different genus. For reference, domestic dogs (Canis familiaris) and gray wolves (Canis lupus) are different species that belong to the same genus (Canis).

You can interact with this figure by:

  • Hovering the cursor over a color in the stacked bar to see the taxonomic identity, sample type, and relative abundance corresponding to that color and bar
  • Clicking and dragging the cursor over a portion of the figure to zoom
  • Single-clicking a genus’s name in the legend to remove that genus from the figure
  • Double-clicking (very quickly) a genus’s name in the legend to only show that genus

Figure 1: Microbial community composition of collected saliva, stool, and CapScan samples. CapScan samples are ordered from proximal to distal intestine (i.e., increasing distance from mouth). Taxonomic composition is reported at the genus rank. Genera present at <1% relative abundance across all samples are reported as “Other genera”. Note: Blue = Firmicutes; Yellow = Actinomycetes; Green = Bacteroidetes; Red = Proteobacteria; Purple = all other phyla. Shades of the same color (except purple) correspond to different genera from the same phylum.



1.2 High-resolution snapshot of community composition

Figure 2 is an interactive figure showing the microbial community composition at higher taxononomic resolution. Here, each row corresponds to a unique microbe.

You can interact with this figure by:

  • Hovering the cursor over a cell to see that microbe’s genus and species (and strain when available), relative abundance, and full taxonomic classification
  • Clicking and dragging the cursor over a portion of the figure to zoom



Figure 2: Heat map showing relative abundance of microbes in each sample (N = 230 total identified). Each row corresponds to a unique microbe and each column corresponds to an individual sample. Note the relative abundance colorscale is in log units.



1.3 Notable microbe detected

  • Dialister hominis:
    • Consumes succinate (Sakamoto et al., 2020), which is elevated in patients with obesity and type 2 diabetes; proposed as a candidate probiotic for regulating circulating succinate levels (Huber-Ruano et al., 2022)
    • Composes 20% of the microbial community in the proximal CapScan sample
    • Note: Dialister massiliensis found at nearly identical relative abundances, but little is currently known about this microbe

1.4 References

Huber-Ruano, I., Calvo, E., Mayneris-Perxachs, J., Rodríguez-Peña, M.M., Ceperuelo-Mallafré, V., Cedó, L., et al. (2022) Orally administered Odoribacter laneus improves glucose control and inflammatory profile in obese mice by depleting circulating succinate. Microbiome 10: 135.

Sakamoto, M., Ikeyama, N., Toyoda, A., Murakami, T., Mori, H., Iino, T., and Ohkuma, M. (2020) Dialister hominis sp. nov., isolated from human faeces. Int J Syst Evol Microbiol 70: 589–595.